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Source file domain.ml

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(****************************************************************************)
(*                                                                          *)
(* This file is part of MOPSA, a Modular Open Platform for Static Analysis. *)
(*                                                                          *)
(* Copyright (C) 2017-2019 The MOPSA Project.                               *)
(*                                                                          *)
(* This program is free software: you can redistribute it and/or modify     *)
(* it under the terms of the GNU Lesser General Public License as published *)
(* by the Free Software Foundation, either version 3 of the License, or     *)
(* (at your option) any later version.                                      *)
(*                                                                          *)
(* This program is distributed in the hope that it will be useful,          *)
(* but WITHOUT ANY WARRANTY; without even the implied warranty of           *)
(* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the            *)
(* GNU Lesser General Public License for more details.                      *)
(*                                                                          *)
(* You should have received a copy of the GNU Lesser General Public License *)
(* along with this program.  If not, see <http://www.gnu.org/licenses/>.    *)
(*                                                                          *)
(****************************************************************************)

(** Signature of standard domains *)


open Core.All
open Mopsa_utils


module type DOMAIN =
sig

  (** {2 Domain header} *)
  (** ***************** *)

  type t
  (** Type of an abstract elements. *)

  val id : t id
  (** Domain identifier *)

  val name : string
  (** Name of the domain *)

  val checks : check list
  (** List of checks performed by the domain *)

  val bottom: t
  (** Least abstract element of the lattice. *)

  val top: t
  (** Greatest abstract element of the lattice. *)

  val is_bottom: t -> bool
  (** [is_bottom a] tests whether [a] is bottom or not. *)


  (** {2 Lattice operators} *)
  (** ********************* *)

  val subset: t -> t -> bool
  (** Partial order relation. [subset a1 a2] tests whether [a1] is
      related to (or included in) [a2]. *)

  val join: t -> t -> t
  (** [join a1 a2] computes an upper bound of [a1] and [a2]. *)

  val meet: t -> t -> t
  (** [meet a1 a2] computes a lower bound of [a1] and [a2]. *)

  val widen: 'a ctx -> t -> t -> t
  (** [widen ctx a1 a2] computes an upper bound of [a1] and [a2] that
      ensures stabilization of ascending chains. *)

  val merge: t -> t * change -> t * change -> t
  (** [merge pre (post1, change1) (post2, change2)] synchronizes two divergent
      post-conditions [post1] and [post2] using a common pre-condition [pre].

      Diverging post-conditions emerge after a fork-join trajectory in the
      abstraction DAG (e.g., a reduced product).

      The changes [change1] and [change2] represent a journal of internal statements
      executed during the the computation of the post-conditions over the
      two trajectories.
  *)


  (** {2 Transfer functions} *)
  (** ********************** *)

  val init : program -> ('a, t) man -> 'a flow -> 'a post option
  (** Initialization function *)

  val exec : stmt -> ('a, t) man -> 'a flow -> 'a post option
  (** Post-state of statements *)

  val eval : expr -> ('a, t) man -> 'a flow -> 'a eval option
  (** Evaluation of expressions *)

  val ask  : ('a,'r) query -> ('a, t) man -> 'a flow -> ('a, 'r) cases option
  (** Handler of queries *)


  (** {2 Printing} *)
  (** ************ *)

  val print_state : printer -> t -> unit
  (** Printer of an abstract element. *)

  val print_expr  : ('a,t) man -> 'a flow -> printer -> expr -> unit
  (** Printer of an expression's value *)

end


(*==========================================================================*)
(**                          {2 Registration}                               *)
(*==========================================================================*)


(** Instrument transfer functions with some useful pre/post processing *)
module Instrument(D:DOMAIN) : DOMAIN with type t = D.t =
struct
  include D

  (* Add stmt to the changes of the domain *)
  let exec stmt man flow =
    if is_change_tracker_enabled () then
      D.exec stmt man flow |>
      OptionExt.lift @@ fun res ->
      Cases.map_changes (fun changes flow ->
          man.add_change stmt [] flow changes
        ) res
    else
      D.exec stmt man flow

  (* Remove duplicate evaluations *)
  let eval exp man flow =
    D.eval exp man flow |>
    OptionExt.lift @@ Eval.remove_duplicates man.lattice

end

let domains : (module DOMAIN) list ref = ref []

let register_standard_domain dom =
  let module D = (val dom : DOMAIN) in
  domains := (module Instrument(D)) :: !domains


let find_standard_domain name =
  List.find (fun dom ->
      let module D = (val dom : DOMAIN) in
      compare D.name name = 0
    ) !domains

let mem_standard_domain name =
  List.exists (fun dom ->
      let module D = (val dom : DOMAIN) in
      compare D.name name = 0
    ) !domains

let standard_domain_names () =
  List.map (fun dom ->
      let module D = (val dom : DOMAIN) in
      D.name
    ) !domains
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